EP2059976A1 - Electrical additional module for a service device, combination of the additional module with the service device, as well as an additional module set - Google Patents

Abstract

Service devices are used in the field of automation and normally form interfaces between programmable logic controllers (PLC) and the installations or installation components to be controlled. Service devices such as these generally have a multiplicity of electrical interfaces for additional modules, with the additional modules being connected via control lines to the PLC, to further service devices or to installation components. The invention is based on the object of proposing an electrical additional module for a service device, a combination of the additional module with the service device, and an additional module set having various additional modules which allow easier fitting and removal of the additional modules in the service device. For this purpose, an electrical additional module (3) is proposed, having an appliance interface (6) for fitting the additional module (3) to a service device (1), with the service device (1) having a stepped holding geometry with at least two steps (2a, b), on each of which an electrical contact means is arranged for holding an electrical opposing contact means, with the appliance interface (6) having step sections (5a, b) which are designed to be complementary to the at least two steps and on which in each case one of the electrical opposing contact means (4) is arranged, in order to make contact with the associated contact means, and with the at least two step sections (2a, b) being rigidly connected to one another when the additional module (3) is not fitted.

Description

description

Electrical add-on module for an installation device, combination of the add-on module with the installation device and additional module set

The invention relates to an additional electrical module with a device interface for mounting the additional module to an installation device, to a combination of Zusatzmo- module with the installation device and on an additional module set with additional electrical modules.

Installation devices are used in the field of automation and usually form interfaces between programmable logic controllers (PLC) and the plants or system components to be controlled. Such installation devices usually have a large number of electrical interfaces for additional modules, the additional modules being connected via control lines to the PLC, further installation devices or system components.

The publication EP 1564848 A1 discloses an installation device with a plurality of interfaces, which are stepped stepped on two opposite sides of the installation device and wherein each interface is mechanically coded for the unmistakable assembly of an interface associated with the additional module.

The publications DE 103 01 004 B3 and DE 103 01 003 B3, which show as an example in each case the same installation device, describe an installation device which has module slots as interfaces, which are also arranged step-like stepped and in each of which an associated additional module can be inserted. These module slots are also mechanically coded. These documents form the closest prior art. The invention is based on the object to propose an additional electrical module for an installation device, a combination of the additional module with the installation device and an additional module set with various additional modules that allow a simplified assembly and disassembly of the additional modules in the installation device.

This object is achieved by an additional module with the features of claim 1, with a combination with the features of claim 15 and an additional module set with the features of claim 16. Preferred embodiments of the invention are claimed in the subclaims and in the following description and disclosed in the FIG.

The electrical additional module according to the invention has a device interface, which is designed for mechanical and electrical contacting of the additional module with an installation device. For mechanical reception of the additional module, the installation device has a step-like graduated receiving geometry, which comprises at least two stages.

Each of the at least two stages is associated with an electrical contact means which is designed for receiving and contacting countercontact means. Thus, each of the at least two stages forms a module slot. The installation device forms a multistage contact zone optionally with steps of different widths. Preferably, the installation device is designed for connection to a PLC and in particular comprises passive or active electrical devices, such as e.g. Signal converters, filters, switching or distribution circuits, etc.

The device interface of the additional module has at least two step sections, which are formed complementary to the at least two stages. At each of the at least two step sections, a counter contact means is arranged for contacting the contact means assigned on the basis of the complementary embodiment, so that the additional module converts a double or multi-level contact interface. summarizes. The contact means and mating contact means preferably have contact elements which are formed on the one hand as contact tongues, contact lugs or contact pins and on the other hand as fork-shaped contact elements. Preferably, contact means and mating contact means each comprise one

A plurality of contact elements to allow a multipolar connection at each connection point formed by contact means and associated mating contact means.

According to the invention, the at least two stepped sections of the additional module are already rigidly connected to one another in the unassembled or unmounted state. The connection is in particular designed so that the additional module during installation on the installation device in one step can be used so that the at least two stages of the installation device are equipped simultaneously or together. In this way, e.g. An additional module which serves to connect a BUS, which requires a contact to contact means of different stages, mounted in a single step and contacted.

Various alternative embodiments of the additional module may differ by the number of step sections and / or the number of poles of the mating contact means. Thus, with the additional module, three or more stages of an appropriately trained installation device can be equipped simultaneously or jointly.

The invention is based on the idea that the common contacting of contact means of several stages by a single additional module leads to an increase in clarity in the construction of electrical control systems and to an elimination of possible sources of error. This is achieved by the add-on module simultaneously contacting the installation device over several stages and being able to be mounted, dismounted or retrofitted in one work step. In addition, the effort for the wiring of the control systems is reduced. Also is a reduction Storage can be reached because the number of execution variants of the additional modules is reduced.

In a particularly favorable embodiment in the production, the at least two step sections are formed in one piece or as a one-piece composite and / or form a partial section of a common housing. The step sections, the partial section of the common housing or the housing are preferably manufactured in an injection molding process.

At least one of the step sections preferably has a support region and an abutment region. The support area is preferably designed as a mechanical stop in order to define the end position when the additional module is pushed onto the installation device. The abutment area can optionally act as a mechanical guide for the add-on module while sliding onto the installation device. An abutment surface of the abutment region is preferably oriented perpendicularly or substantially perpendicular to a bearing surface of the abutment region.

In an advantageous development, the additional module has guide devices which form a module-side part of a sliding guide. The sliding guide is preferred as

Forced operation designed to facilitate the installation of the additional module. The sliding guide is realized, so that the additional module can be pushed onto the installation device along a sliding direction, which is aligned parallel or substantially parallel to the contact surface and / or perpendicular or substantially perpendicular to the support surface. Pushing is done from an intermediate position to the end position in which additional module and installation device are contacted.

In preferred developments, the additional module is designed for tool-free assembly and disassembly. For mechanical securing of the function module in the end position or Construction position locking means are optionally provided, which are designed for example as a locking means, in particular with latching hooks. Alternatively, the locking means for tool-free installation and for disassembly are realized with the necessary use of a tool.

In one possible development, the guide devices are designed as part of a module-side plug-in guide, so that the additional module guided in the assembly can be brought into the intermediate position. The plug movement takes place in

Direction of a plug-in direction, which is oriented perpendicular or substantially perpendicular to the sliding direction. The plug-in guide is optionally designed as a forced operation. The assembly of the function module thus takes place by means of a combined push and slide movement. This design feature of the functional module has the advantage that the installation of the additional module is also easily possible if several installation devices are arranged side by side, since no lateral space, ie in the direction of the adjacent installation devices, is required for the assembly.

The guide device preferably has mechanical coding means in order to ensure a mix-free installation. The Führungsvorriehtung thus assumes a dual function, namely a leadership function and a coding function.

In a preferred constructive implementation of the additional module, the guide devices are formed as laterally molded or cheeks with guideways, in particular for receiving hook elements or other elements. The guideways of cheeks of a step portion are arranged in a preferred embodiment opposite directed inwardly or molded into the cheeks.

Preferably, the cheeks are mechanically coded by the width, the height and / or the course of the guideways, in particular the cheeks of a step section and / or the cheeks of two different stages sections are mechanically differently coded.

To improve the mechanical compatibility between the additional module and the installation device, the bearing areas and / or the bearing areas have recesses for the introduction or passage of device-side contact elements of the electrical contact means. The recesses of abutment area and abutment area are in particular openly connected to each other, so that the recesses are formed as open edge portions. Preferably, each edge portion is associated with a contact element.

In an advantageous development, the contact elements of the mating contact means are arranged integrated within the housing and / or in the step sections. In this way, in particular the risk of accidental contact with the contact elements during assembly is minimized. For the same purpose, the contact elements of the contact or the contact means are optionally also provided with a mechanical contact protection.

In a further advantageous embodiment of the invention, the function module for each of the at least two stages sections each have a board plane, which preferably carries in each case the contact elements of the mating contact means of the associated step portion. Each board plane may equivalently be formed by one of a plurality of separate boards or a portion of a multi-layer folded flexible board. In particular, the contact elements are soldered to the board. The blanks or blanks are preferably arranged parallel to one another and / or parallel or substantially parallel to the abutment region. The correct positioning of the boards in the housing of the additional module is preferably ensured by formed on the insides of the housing guide ribs. This construction also allows a space-saving arrangement within the housing and a rational production. It is also preferably provided that the mating contact means, in particular via the boards or board pieces within the housing or the additional module are interconnected. In this case, a direct contacting is preferably provided so that signals of one stage of the installation device can be looped through to another stage of the installation device.

Alternatively or additionally, a processing device is provided so that signals of one stage of the installation device can be processed within the housing or the functional module and can be output to the same or another stage of the functional module. In this way, signal forwarding and / or processing of signals of several stages of the installation device within the functional module is made possible.

Preferably, further application devices are provided within the functional module, which are likewise interconnected with one or more of the circuit boards and / or the processing device and which are preferably designed as a temperature sensor, voltage measuring device, voltage monitoring, etc. With this or with other processing facilities, the functional module becomes an active module that can perform functions autonomously.

To further safeguard against confusion during assembly, optional mechanical single-coding means are provided, which in a structural design are in particular shaped, projecting key elements and / or as receptacles in

Form of lock elements are formed. The individual coding means are preferably realized in such a way that, in the event of a confusion, the plug movement is already blocked during assembly.

The invention also relates to a combination of the functional module and the installation device, as both have already been described, and wherein the installation device is mechanical and is electrically compatible with the electrical additional module. In particular, the installation module has the device-side parts of the guide device.

The installation device is preferably designed as a time relay, function relay or switching element. The contact means preferably form electrical interfaces for interfacing with supplies (e.g., for feeding in operating voltages), data lines (e.g., buses or signaling contacts), signal transmitters (e.g., probes, switches, buttons), or a PLC.

Preferably, the mounting geometry of the installation device is designed so that connection terminals, as known from the prior art, remain compatible and usable.

Another object of the invention relates to an additional module set, which comprises a plurality of electrical additional modules, wherein the additional modules are functionally coded and module-specific coded. The additional modules thus differ in particular by the functionality and the mechanical coding and are otherwise identical.

Other features, advantages and effects of the invention will become apparent from the following description and the accompanying drawings of a preferred embodiment. Showing:

1 shows an installation device with an attached additional module as an embodiment of the invention in a three-dimensional, schematic representation;

2 shows the additional module in FIG. 1 in a three-dimensional, schematic representation with a view of the device interface of the additional module; 3 shows the additional module in FIG. 1 in a three-dimensional, schematic representation with a view of the rear side of the additional module;

4 shows the additional module in Figure 1 in a three-dimensional, schematic illustration without cover element.

5 shows the additional module in Figure 1 in a three-dimensional, schematic illustration without cover element and without equipment;

6 shows the additional module in Figure 1 in a three-dimensional, schematic exploded view.

Identical or corresponding parts are each provided with the same reference numerals in the FIG.

1 shows in a schematic plan view obliquely laterally in three-dimensional representation of an installation device 1 designed as a switch, the installation device 1 on its narrow side next to other electrical interfaces two stages 2 a, b, on which an additional module 3 is mounted.

As can be seen from the illustration in FIG. 1, the steps 2 a, b are formed in a lateral plan view as rectangular areas which run in a staircase. Each of the stages 2 a, b is each associated with a contact means (not shown), so that each stage 2 a, b forms a module slot with associated contact means, and wherein the module slots are arranged offset in height to each other. By the additional module 3, both contact means of the stages 2 a, b are contacted with each associated mating contact means 4 (FIG 6) of the additional module 3 in the mounted state. On the underside of the installation device 1 fastening means, for example, for attachment to a DIN rail in a cabinet are formed. The additional module 3 is at least partially complementary to the investment geometry formed by the two stages 2 a, b of the installation device 1 is formed. For this purpose, the additional module 3 has two stage sections 5 a, b, the step section 5 a of the step 2 a and the step section 5 b of the step 2 b is assigned. Also, the step sections 5 a, b have in the contact area with the installation device 1 and the stages 2 a, b in a lateral plan view in each case a right-angled graduated geometry.

In FIG. 2, the additional module 3 in FIG. 1 is shown rotated in a schematic, three-dimensional view in such a way that details of a device interface 6 can be seen, which is formed by the two step sections 5 a, b. The device interface 6 is used for mechanical and electrical attachment or contacting of the additional module 3 to the or the installation device. 1

The step section 5a has an abutment region 7a and a support region 8a arranged approximately at right angles thereto. The contact area 7a is used for contact with a vertically aligned in FIG 1 area of the stage 2a, in particular such that when pushing the add-on module 3 on the installation device 1 of the contact area 7a on the area of the stage 2a is slidably guided. On the other hand, the support area 8a is designed as a mechanical stop which abuts against a region of the step 2a oriented horizontally in FIG. 1 as soon as the additional module 3 has been completely pushed onto the installation device 1.

The step portion 5a is laterally bounded by two cheeks 9a on both sides, which are formed as extensions of the side walls of the functional module 3 and are aligned perpendicularly projecting to the contact area 7a. The height of the cheeks 9a shown vertically in FIG. 2 essentially corresponds to the vertical extent of the contact area 7a. The cantilevered cheeks 9a show a rectangular cross-section in lateral plan view. To each other aligned inner sides of the cheeks 9a projections 10a are arranged or formed, so that the cheeks 9a form mechanically coded guide devices with open guide channels with which (not shown) hook elements of the installation device 1 mechanically guided and checked at the same time on the appropriate mechanical coding.

For a better understanding, the assembly of the additional module 3 on the installation device 1 will be briefly outlined below. The assembly takes place via a combined plug-in

Sliding movement, wherein in a first step, the additional module 3 is plugged onto the installation device 1 in an intermediate position. The insertion movement takes place in the insertion direction, which is visualized by a first arrow 11, which is aligned horizontally and also perpendicular to the contact surface 7a in FIG. In a second step, the additional module 3 in a sliding direction, which is represented by a second arrow 12, which is aligned vertically and perpendicular to the direction of insertion arrow 11 in FIG 2, brought from the intermediate position to an end position or end position corresponds to the contacting position.

The cheeks 9a in FIG. 2, due to the mechanical coding during the insertion movement, can only receive hook elements of the installation device whose vertical extent is less than the height of the guide channel formed by the projections 10a of one of the cheeks 9a, whereby a first mechanical coding is provided.

The contact area 7a and the supporting area 8a form a common edge area, which is interrupted by recesses 13 several times, in this embodiment five times, wherein the recesses 13 are realized as recessed slot areas. The recesses 13 are used for introducing contact elements of the device-side contact means during the plugging movement and for receiving these contact elements during the sliding movement. Individual coding means 14 in the form of vertically extending webs are formed on the abutment region 7a and are received as key elements during the insertion and sliding movement of matching lock elements in the form of receiving openings in the installation device 1.

Over the length, the width and the distance of the webs of the additional module 3 or by the formation of the receiving openings in the installation device 1, a second mechanical coding is formed, which allows only a mix-free installation. The individual encoding means 14 and the recesses 13 are arranged alternately in the abutment region 7a.

The step sections 5b are designed analogously to the step section 5a, so that reference is made to the description of the step section 5a for its description. The contact area 7b is arranged offset parallel to the contact area 7a, wherein the offset is formed by a translation opposite to the direction of insertion arrow 11 and in the direction of arrow 12. The support area 8b is arranged in a manner analogous to the support area 8a. In order to avoid an over-definition of the additional module 3 in the end position in the installation device 1, it is preferably provided that either the support area 8a or the support area 8b acts as a mechanical stop. Alternatively, another mechanical stop can be used.

The total of four cheeks 9a, b with corresponding projections 10a, 10b either each have the same guide channel, optionally mirror-symmetrical, or are mechanically differently coded as a function of the associated step section 5a, b.

To lock the additional module 3 in the installation device 1 as a locking means 15, a resilient tongue in the abutment portion 7 a centrally in the vertical direction against the sliding arrow 12 is formed cantilevered. The elastic tongue carries a latching hook 16, which during assembly in a corresponding detent opening in the installation device 1 snaps and locks the additional module 3 in the installation device 1. In this case, the latching hook 16 is designed in such a way, in particular by means of corresponding chamfers, that the locking mechanism runs automatically or automatically during assembly. For disassembly, however, the elastic tongue must be bent against the insertion direction arrow 11 in order to unlock the locking means 15. Preferably, the locking means 15 is structurally designed so that for unlocking a tool, for example a screwdriver, must be used forcibly.

The step sections 5 a, b are part of a common housing 17, which is integrally formed, and on which the structural elements described above are formed or formed. The housing 17 is produced inexpensively, for example, in an injection molding process.

As can best be seen in FIG. 3, which shows the additional module 3 in a schematic three-dimensional representation of the rear side opposite the device interface 6, the housing 17 has a socket opening 18 into which a plug 19 (FIG Contacting is insertable. The plug 19 is used, for example, for contacting a data bus or for connection to further additional modules, installation devices, sensors, switches or the like. The back of the additional module 3 is chamfered in the lower portion, inter alia, to form a Entformschräge in the manufacture of the housing 17.

On the in the Figures 2 and 3 upper portion of the housing 17, a cover member 20 is placed, which is snapped onto the housing 17 and this completes. Alternatively, the cover element 20 can also be plugged or screwed on. The cover element 20 is formed in one piece and is preferably also produced by an injection molding process. The cover element 20 has on the back of the additional module 3, a further socket opening 21, so that ever according to the internal design of the additional module 3 plug 19 can be inserted into a socket opening 18 of the housing 17 or into a socket opening 21 of the Deckelelenaents 20.

At the top 22 of the lid member 20 shown in Figures 2 and 3 further access openings 23 are introduced. In particular, the cover element 20 has a breakable cover 24 on the upper side 22, which enables the user to subsequently disclose a further contacting possibility, in particular a plug connection. This contacting possibility can be used, for example, for an emergency stop circuit or a standardized end position connection, in particular when the additional module 3 is designed as a motor starter bus connection.

4 shows the additional module 3 in the open state, ie without cover element 20, in a schematic three-dimensional representation obliquely from above. In contrast to the previous FIG two plug 19 are inserted into the additional module 3. The housing 17 forms an interior 25 in which parallel to each other and parallel to the contact surfaces 7a, b, two board levels with a first board 26a and a second board 26b are arranged.

The first board 26a is assigned to the step sections 5a and carries the contact elements 4 (FIG. 6) of the counter-contact means of the step section 5a. The contact elements 4 of the first step portion 5 a are soldered on the first board 26 a. In an analogous manner, the second board 26b carries the contact elements 4 of the mating contact means of the step section 5b. The first and second circuit boards 26a and b are optionally in electrical contact with each other, so that signal paths between the mating contact means of the step sections 5a, b are formed. On both boards 26a and b, electrical circuits are applied.

Between the boards 26 a, b, a bushing 27 is arranged, which in the closed cover element 20 on the rupturable Cover 24 is accessible. Optionally, the first and second circuit boards 26 a, b are rigidly connected to one another mechanically, for example by the bushing 27 being fastened to both boards 26 a, b as a mechanical connecting element.

FIG. 5 shows the housing 17 in the same representation as in FIG. 4, wherein the circuit boards 26 a, b forming an electrical functional group are removed. As can be seen from the view of the interior 25, guide rails 28 are arranged on both sides and opposite lying with U-shaped guide grooves, which allow accurate positioning of the boards 26 a, b in the housing 17. As can likewise be seen in this illustration, the interior space 25 is stepped, so that the second board 26b in the area of the step section 5b is not covered by the first board 26a relative to the installation device 1.

The FIG 6 shows the additional module 3 in a schematic three-dimensional representation in exploded view from the back. In this illustration, a fork-like contact element 4 can be seen, which is soldered on the first board 26 a. When installed, all contact elements 4 of the first and second circuit boards 26 a, b are received in the interior 25, in particular such that contact by a user is precluded. In the illustrated example, the boards 26 a, b are connected only via the socket 27, in alternative embodiments, processing units or sensors may be integrated in the additional module 3, which are also contacted with two boards 26 a, b, so that the additional module 3 as active functional module is formed. Realizable examples of an active function module are temperature measurement, voltage measurement or corresponding monitoring.

When assembling the additional module 3, the boards 26 a, b are inserted into the guide rails 27 and pushed into the interior 25. It is possible, the housing 17 with the two boards 26a, b at the same time in a common Ar- Beitsschritt to equip, with the precise guidance and positioning is done by the guide rails 28. By an end boundary of the guide rails 28 or other mechanical stop the position of the boards 26 a, b is defined in the housing 17. In a next step, the lid member 20 is snapped, which are fixed by a mechanical abutment area in the cover member 20 for the boards 26 a, b these final and accurate or low-tolerance in the position. This structural design of the additional module 3 allows a cost-effective and, at the same time, low-tolerance production of a fully assembled and consequently also easy-to-mount attachment module which simultaneously contacts over several stages and is also completely removable and retrofittable.

Claims

claims

1. Electrical additional module (3) with a device interface (6) for mounting the additional module (3) to an installation device (1), wherein the installation device (1) has a graduated Aufnahmegeo- nαetrie with at least two stages (2a, b) in which in each case an electrical contact means for receiving an electrical counter contact means is arranged, wherein the device interface (6) to the at least two stages of complementary formed step sections (5a.b), in each case one of the electrical Gegenkontakt- medium (4) for contacting the associated contact means is arranged, characterized in that in the uninstalled state of the additional module (3) the at least two step sections (2a, b) are rigidly connected together.

2. An additional electrical module (3) according to claim 1, characterized in that the at least two step sections (2a, b) are formed integrally and / or as part of a common housing (17).

3. The electrical add-on module (3) according to claim 1 or 2, in which at least one or each of the step sections (2a, b) has or have a support region (8a, b) and a contact region (7a, b).

4. Electrical add-on module (3) according to one of the preceding claims, characterized by guide devices (28), wherein the guide devices (28) a module-side part of a sliding guide for pushing the additional module (3) on the installation device (1) from an intermediate position to a End position along a sliding direction (12) parallel to the contact area (7a, b) and / or perpendicular to the support area (8a, b) form.

5. Electrical additional module (3) according to claim 4, characterized in that the guide devices (28) a module-side part of a plug-in guide for attaching the additional module (3) on the installation device (1) in the intermediate position along a plug-in direction (11) perpendicular to the contact area (7a, b) and / or parallel to the support area (8a, b) form.

6. Electrical add-on module (3) according to one of claims 4 or 5, characterized in that the guide devices have mechanical coding means.

7. Electrical add-on module (3) according to one of claims 4 to 6, characterized in that the guide devices (28) comprise laterally molded or attached cheeks (9a, b) with guide tracks for receiving device-side hook elements.

8. The electrical add-on module (3) according to claim 7, characterized in that the cheeks (9a, b) of the step sections (5a, b) have differently coded mechanical coding means.

9. Electrical additional module (3) according to any one of claims 3 to 8, characterized in that the or the support areas (8a, b) and / or abutment areas (7a, b) recesses (13) for the implementation of device-side contact elements of or having electrical contact means.

10. Electrical additional module (3) according to one of claims 2 to 9, characterized in that the electrical contact elements of the mating contact means (4) within the housing (17) are arranged.

11. Electrical add-on module according to one of the preceding claims, characterized by at least two board levels, each formed by a board (26a, b) or a portion of a correspondingly folded board, wherein each of the at least two stage sections (5a, b) associated with one of the board levels and wherein the associated board plane carries the electrical contact elements of the mating contact means (4) of the step portion (5a, b).

12. Electrical add-on module (3) according to claim 11, characterized in that the board planes are arranged parallel to each other and parallel to the abutment region (7a, b) and / or perpendicular to the support region (8a, b).

13. Electrical additional module (3) according to any one of the preceding claims, characterized in that the GE genekontaktmittel (4) of the step portions (5a, b) within the additional module (3) and / or the housing (17) with each other directly and / or with each other are interconnected via a processing device.

14. Electrical add-on module (3) according to any one of the preceding claims, e e c e c h e n e d d e r c h mechanical Einzelkodiermittel (14) which are formed as cantilevered key elements and / or as recesses in the form of lock elements.

15. Combination of the electrical additional module (3) according to one of the preceding claims with the installation device (1), characterized in that the installation device (1) is mechanically and electrically compatible with the electrical additional module (3).

16. Additional module set comprising a multiplicity of the electrical add-on modules (3) according to one of the preceding claims 1 to 14, in which the additional modules (3) are coded differently in a module-specific manner.